Cookie machine



Nv. Az8, 1933.

F. c. WERNER ET AL COOKIE MACHINE Filed April 27. 1931 4 Shee 12s-Sheet l 1 Trunk Chnes Niamey Wnok O. van Axuenl @Zt/TMW N0V 28, 1933 F. c. WERNER ET AL COOKIE MACHINE Filed April 27, 1931 4 Sheets-Sheet 2 NOV- 28, 1933- F. c. WERNER l-:r Al.

COOKIE MACHINE 4Sheets-Sheet 3 l Filed April 27, 1931 Nm 1 :m @Ummm l C@ @um f NOV. 28, 1933. F. C. WERNER ET AL 1,936,893

COOKIE MACHINE Filed April 27, 1931 4 Sheets-Sheet 4 lnoenlors "mnK Charles Werner imoX ONG (nTwelL Patented Nov. 28, 1933 M Y' "13.363393A oooxm MACHINE Frank Charles -Werner,v vGrand Rapids',v land Harold Of. vVan Antwerp, East Grand' Rapids,

Mich. Werner.,

said Van 'Antwerp assigner to said Application April. 27,1931. serial Nt. saaorr `4 claims. `(01.' iov-7)" This invention relates to cookie machinery and more particularly to automatic machines for forming the dough and depositing .the dough in proper spaced relation on the pans on which it is 5' to be baked.

In machines of this nature it is customary tor form the dough in dies or depressions in the perl riphery of a rotating drum from whichr the dough, properly shaped for baking, is deposited lupon a 10 conveyor andV from the conveyor the shaped dough' is deposited on pans which are passed through Vthe machineto receive it. It is'customary to arrange the depressions vor dies in the roller in closely spaced Auniform relation but the 15.

considerably altered both relativeto distance and to arrangement and the principalu object'of this invention is to provide means which will `receive the cookie dough deposited in acert'aincloseuni- 20.form arrangement from the die drum or 'roller and to deposit said cookie dough upon' the baking pans in a diierent spacing and arrangement and also to provide means by which said spacing and arrangement may readily be varied.

For example, the cookies customarily' are formed in the drum and deposited therefrom in closely and equally spaced relation. However, the baking vpans Whichcustomarily pass through the machine on a conveyor are arranged with gaps between them, which is almost necessaryin operation of-the machine', and also it is desired to spread the cookies apart-farther on the pans than they were arranged originally in the die roller.'

For some kinds of cookies it is desirableY to have them arranged quite closelytogether and for others they should be spaced more Widely apart for reasons well understood'by bakers and this invention provides means for separating the cookies deposited by the 'die roller into groups io with gaps between said groups wherebya group of cookies may be deposited upon each rpan and the gaps between each group will accommodate the gaps between pans. The invention furthermore, provides means Vfor quickly andA readily changing the relationship of the respective cookies in the groups and aiso changing the'distanees between groups whereby the cookies may be properly deposited upon the pans wholly within the boundary thereof without overlapping the edges and the distances between cookies may :e varied as required by the character of the dough or shape and size of the cookie.

The machinealso provides novel means for socalied sugaring the cookies kor depositing marelationship of the cookies on the pans mustbe Vthe essential "working parts ofthe invention f j1 1,.f. 80, n Fig. 4`is a. fragmentary'plan viewfofvthe esseny, 1

ing with a main drive gear 9`xed toa shaft 1'0k terial such as sugar, flour, nuts. etc., on a surface Vthereofand for pressing such coatinginto the surface 'if desired. For example, it f may be desired to provide nuts on the surface of a lcookie and top ressthem into said? surface so .that they f may besub'stantially'flushwith the resultrthat 60* the said surface willv be relatively smooth and even which is desirablel in packing cookies.- Av cookie withva rough uneven surface does not pack.

.and ship as well as one which hasa smooth regn'-k lar surface'and therefore cookies of substantially 65S uniform thickness are more rdesirable'from1 aA packing and 'shipping standpoint. y

The invention provides variousother new and useful features ofrconstruction andarrangement as will her'einafter'b'e 'more fully 'described and 70 particularly pointed out in vtheclams, reference' being had to the accompanying drawings, iniV which, 'f f y "Fig, 1 is a side elevation of a machine 'embodying thisin-vention. f v `f Fig. 2 is a longitudinal sectional elevationj ofthe same. L: Fig.' 3' is a Afragmentary sectional elevation -of shown in -the nature of a'diagram.

tial parts shown in Fig. r3. Fig. 5 is the same as Fig. 3 with the parts moved io an advanced position of `iperationiV *i Fig. 6 isa fragmentary plan View of the essential parts 'shown' in Fig.5.v` f 3' Fig. 7 is `a transverse sectional'elevationjon 1 the line '1 -7 of Fig. 2, with parts.omittedjqillus#n w trating the sugaring mechanism.Y V Fig. 8 is a'transverse sectional elevation 'offthev machine on `the line 8`8 of Fig. 2.y Fig. v9 is a' fragmentary 'top view of veyor -disks of the su'garing device. M f Fig. 10 is V'an end elevation of the parts'shown"v in Fig. 9. j y Q M- 95 Fig. 11 Vis a fragmentary` elevation ofthe variable speed driving mechanism forming 'yay part of the machine, andy' i Fig. 12 is aifragmentaryl View of the` sugaring roller conveyor'showing the driving mechanism' thereof. "vf Like reference numbersre'fer to like partsfin The machine has side frame members 1` and 2 which are joined by cross Aframe members v3 'and' 4. A motor 5, mounted on a beam6,'ha's a shaft 7 on which a pinion* 8 is fixed, said pinion-Smash#- `l'ournaled on the frame. y i

-A .pan conveyorvis provided comp-rising two hat the entry end of the machine and thereby shafts 17 and 19 are providedrespectivelyfwith spaced apart endless chainsVV 11 passing over i sprockets 12 located at the respective ends of the machine and mounted on conveyor shafts 13 extending transversely. of the frame at the respecv live ends of the machine and journaled in said frame. A 'conveyor drive chain 14 passes over a sprocket i15 on the shaft l0 and over a similar sprocket'(not shown) on the' conveyor shaft 13 drives said conveyor from said shaft 10. l

A die roller 16 is mounted above the frame' mern-" bers 1 and 2, extending transversely of the framel and having av shaft 17 journaled in Vupward'exiensions of the frame. A presser roller 18 is located with its periphery closely adjacent that Vof the die roller 16 and has its shaft 19 also journaled in upward extensions'of the frame. The

gears 20 and 21 which intermesh thereby` causing the die roller and presser rollerV to rotaie simultaneously. The gear 21 meshes with an idler gear 22 mounted on the frame member 1 and said gear 22 is driven b y a pinion 23 which is mounted' on the outer lend of the main drive shaft 10. A

" hopper 24r is arranged inkposition to supply dough to the dieroller I16 and other conventional` vand Well known, parts o f a lcookie forming device are provided such as J[he scraper blade 25dwhich removes surplus dough' froni thedie roller 16, the

adjustableggate 26 which prevents leakageof the dough out of the hopper around thepresserroller, the delivery wires27 which remove the formed i doughl from the die recess as the die roller'rotates, etc. '4

Thecookie forming apparatus above 'describedisconventional and well known and the die recessesla on the periphery of therdie roller are closely spaced as is usual.

Although not; strictly accurate i because the actual cookie does not exist until after it has been .bakedffor simplication the formed dough. will be hereafter termed a cookie and,-because of thegfact that-thisA machine deals with nothing excepting lthe unbaked dough, the termcookie whenever mentioned hereinafter will refer to the dough formed into shapefto make a cookie, such vcookies being indicated byCl.

endless receiving belt 28 extends in a horizontal v plane beneath the die roller 16. Ther mountingV of thev belt ,28. involves-a reciprocable frame 29 supported onjthe mainframe lof the machine by rollers 3Q and having a shoe 31 at the 'delivery end and a-roller 32.*at its opposite end lfrainle29. lThe` guide Vrollers 33 haveazfsimple rotatable mounting in said main frame and the driving-roller 34 is provided with a shaft 35l on whichit is mounted, said shafthaving a. gear` 36 whichmeshes-with an idler pinion.37, said pinion 37. meshing with the gear 21 and thus providing means'for driving theroller V34Y from the same source of power from which said gear 21 is driven.

' Reciprocatory movement is impartedfto the frame 29 by anl angular link 38 connected to the movable end of; alever 39 pivot-ed at 40 tothe main-frame. -A cam 41 isfixed to acam shaft 12` journaled `inthe fmain frame and said cam` shaftris rotated by a chain 43v passing voversuit-j able vsprockets-on said, cam shaft 42 and one of the conveyor shafts 13 whereby the shaft 42 derives itsipower from said conveyor shaftan'd "tion is not essential.' n

intermediate .endless conveyor arranged beneaththe receiving belt thereby synchronizes the movement of the pan conveyor 11 and reciprocation of the frame 29. A driving bar 44 is pvotally connected at 45 to the lever 33 and lies adjacent'the cam 41 having Cam rollers 47 are fixed to said bar 44 to engage `the rperiphery of the cam 41 at diametrically opposite positions. Rotationv of the cam 41 thereby causes reciprocation of the frame 29 by means of the described members and in the present disclosure such reciprocation is, substantially uni-v form 'inf both directions and throughout each reciprocastroke, although such uniformity of belt 43 yis 28 having its upper extension in a horizontaljplane and passing over a1shoe'49fat its delivery return and over avdrum at its opposite return, the shoe 49 being fixed to the main frame of the machine and extending transversely thereof and the drum 50having-its shaft 51 `journaled in said main frame. The shaft 51 is previdedwith avsprocket 52 on the outer side of the frame and a chain 53 passes over said sprocket and over aY suitable sprocket 54. 4 l

The sprocket-54 is rotatably mounted' on the side member 1 of the frame and is provided with a pinion (not sho-wn) meshing witha pinion 55 fixed to the outer end of a shaft 56. The shaft 56 is journaled in the main frame andbetween thel side members of said frame the shaft is provided with a-pair lof arms lspaced apart andv loosely mounted onu-said -shaft and extending;

downwardly Vandtovvard the delivery end of the machine, the oppositefends of' saidv arms 57 carrying a shaft/56 which is journaledto rotate therein'.v g' v -1 V'Ihe shaft 56 and shaftr .'58 are-each provided with suitable sprockets over which the chain4 59V passes andthe shaft 58 isalso provided with a driving disk 60 the periphery of which disk travelspbetwee'n the friction pulleys Gland 62. of the pulleys Gland 62 are mounted on the shaft 63, the pulley 61 being fixed to said shaft and the pulley 62 being slidable onv said shaft and moved toward the. pulley 61 by means of a 'spring Y62a whereby constantfrictional engagement occurs between said pulleys and .thedisk 6G. The inner faces of the pulleys 61 and ,62 are preferably slightlyhconical in shape; v

a The shaft63 isfjournaled in the main frame andthe said shaft 63 and then/nain Ydriving shaft 10 are. provided with suitable sprockets over whichthe chain 64 passes whereby rotation is imparted to saidshaft 63from the shaft 1G: The

Both

arms 57 between theirends are provided with a downwardly yextending*'screw threaded red 65 entering a screw threaded'hand'wheel 66 supported by the bracket 67 whereby rotation of saiOlk hand wheel will raise or lower the swinging ends of said arms -57' and thereby cause the driving disk 60 to move between the pulleys y61 and 62 relative-to the-shaft 63 and by such structure f the relative speed of rotation between the shaft 11;. .f

described transmit movementr from the main ifi drive shaft-10*tothe intermediate conveyor belt 48 and that the speed of Vmovement of saidoonveyor belt, 48 may bevaried.

Means for depositing sugar or othersubstances uponthec cokies as they pass through the ina-1 chine is provided ina rpller conveyor with 1a. hopper for such substances located; over Athe con veyor and a feed roller at thehopperto` distribute the substance as the OOkies are passed under it. rEhe roller conveyor comprises a series of shafts A68 extending transverselyofthe :ma-

chine and adjacent the shoe .49 over which the intermediate conveyor Ibelt 48' passes, `Each of i said shafts 68 is provided with a plurality of spaced apartrollers or `disks 69,-the disks of one shaft being spaced to lie between the disks of the adjacent shaft and the disks being' of diameters to occupy substantially the full `space between the shafts,

A waste 'conveyor belt '70 extends transversely over whichthe chain '75 passeswhereby rotation is imparted from said shaft l0 tosaid--drum V'72 and the conveyor belt 'Z0 passing over it. YThe shafts 68 of the roller conveyor extend outside the frame of the machine and are provided at their outer ends with bevel pinions 76 each of which meshes with one of the plurality of bevel pinions 77 which are mounted on a shaft 78. The shaft '78 is journaled on the frame and said shaft and the shaft of the roller 72 are each provided with sprockets `over which a chain 7.9 passes which drives the shaft '78 and thereby imparts simultaneous rotary movement to all of said shafts 68, all rotating/in the same direction which is to movethe upper portions of their peripheries toward the delivery end of themachine. 1

The hopper 80 which contains the suganor other substance to be deposited on the cookies is located directly over the above described roller conveyorand is supported on the main frame of the machine and'its lower endis pro-vided with a feed roller 8l and also with an adjustable gate The roller 8l is provided with a shaft guide 82. 83 at one end of which is a driving disk 84 and a pair of friction pulleys engage the periphery of the disk 84 between them in substantially the same manner as the friction Ypulleys 6l `and 62 engage the disk 50. The pulleys 85 .are rotatably mounted on the swinging end fof ari-arm 86, said arm being pivotally mounted on a shaft 87 and the pulleys 85 and shaft 87are provided with sprockets over which a chain 88 passes. -The shaft 87 and the outer end of the shaft 63 are provided with other :sprockets over which the chain 89 passes. v

A screw threaded rod 90 passes through Ior ade 'jacent the arm 86 between yits ends and is connected to a iixed part of the frameand is pro vided with a screw threaded hand wheel whichY engages said arm, which construction provides means for moving the friction pulleys 85 to vari` ous positions relative toy the periphery of the disk 84. By this structure the shaft 63, .pre-

viously described, drives the friction pulleys 85 through the` chains 89 and 88 and the'pulleys inr is substantially the same as the analogousstruc# ture having the parts 57, 6o,` 6l, 62 and`63-.and-- forms no specic part of the present invention.

The surface of the .feed drum 8l may be treatedasdesred, either Smcoth'or corrugated or with particles :of .which it is composed. The amount of material -fedby rotation `of thedrumfroi-n fthe) hopper 80 may be governed by adjustment of the gate82, the lower edge of which may be movedr relativeto the periphery of fthe feed drum.v

A'delivery conveyor `belt 92 extends from-the: delivery fsidevof the lroller conveyorstowardt-he delivery .endj of ,the machine and downwardly into close proximity `with the pan conveyor 1l, saidbeltpassing over a roller `93 near said roller vconveyor and over ashoe 94 near said pan :con-

.Thebeltalso passes around afdriving y drum ,9 5 which is mounted on the shaft 87 -pre 'j viously described, and is'idrivenaby `the chai-n.89 and frictional engagement betweensaidbclt and tevoredrum causes movement of 'the upper-portion of the belt inv a direction toward' the de1iveryend 5 of the machine` f f Apresser roller 96 `is located overv the ydelivery` belt'andfpreferably substantially over-the drum 9 5; being spaced above the b elt substantiallythe' -V 'i desired thickness ofa cookiefor'the purpose of engaging any large particles which may be -deposited on'the cookie and depressing them into be mountedfor' vertical adjustmentso lthat the spacebetween it and the belt 192 may be varied.

As this Amachinehas been constructed it is desired that thecookies formed. by one `rota-tionof lthe body thereof. `Ifdesiredjthe roller ,96 may y the `die'roller 16 shall constitute a panful and inasmuch'as the pans 97 are considerably ylonger than the circumferenceof the roller the Inovef ment of the pan'conveyorV 1l must be more rapid thanV the peripheral speed of the die roller. 'I 'he pan conveyor 1l is provided with lugs lla entend-l ing upwardly therefrom vat spaced apart locations,` the spaces between said lugs ibeingsome-.y

what greater than the length of a pan 97-.and in operation a pan is'placed uponth-e conveyor between two of the lugs and carried .forward byengagement with-therear lug. The pan conveyor l1 moves at aspeed whereby the distance betweencenters of the lugs l 1a will pass through the machine in unison withone rotation of the die -roller 16.

[It is preferred to have the receiving conveyor belt 28 move at the samespeed as the peripheral speedof the die roller l6. -The speed of move-` ment of the intermediate conveyor belt 48 is variable as has been explained :but it is `not advantageous to permit itto move slower than the mcvementpf the receivingr belt 28.` Speed of `movement of the roller conveyor and thedeliveryconveyor is; optional to a certain extent but it. is

desiredlthat their movement b e the ysame orapi proximately the same as thespeed of the 'pan conveyor v11. f'

Y It will be understood thatthe relative speeds above described-maybe. varied tosome .extent Ywithout altering the principle of operation. The

relation between movements/of the die roller and the pan conveyor could be varied with the result thatmore or lessY cookies would bedeposited upVon-eachpan. The speed of, movement issu,...

of the receiving conveyor might be varied with little'or no change inthe ultimate result. Liker-4 wise the relative speeds of the roller conveyor andthe delivery conveyor is substantially irhrna` terial.. It is the variable speed or" the belt` 4 8 'Y whichfis the gistof the present invention.

Opration i l 'l f n Win segmento@ that the principallobjecr 150.

of. the invention isl to separatethecookies which are' Vformed by. the die roller 16vr inevenly spaced `relation;into rgroups with gapsbetween groups and also toi/'ary the spacing of `the cookies in the groups andlikewise the "gaps between groups.

It'is'al'so required, however', to deposit the cockies formed by one rotation'oi the die roller i6 in a space/equal to `the distance between centers of the 'in 1 the conventional manner by pressing the l dough contained inthe hopperA 24 into-'the recessesoftlie dier'cll'er 16 as it rotates, the presser roller' 18 'serving' dough 'into said die recesses and the stripper ,knife 25 acting to removesuperiiuous dough from vthe surface ok the' die roller whichdougliclings tothe presser roller i8 and is carried backV into the hopper to be used over; As the die roller i6 rotates the kwire belts 27 causesthe cookies l to remove from the dierecesses andto drop upon the-receiving belt 28 which passes beneath the die roller and, as has been described, the receiving-'belt travels'at approximately the same speed as the peripheralspeed of 'the-die roller The opposite returns of the receiving belt pass vvover the roller 3 2 and the shoeSi, respectively,

CTI

which aremounted on the reciprocating frame 29V whereby the depositing position of the forframe but such motion is restricted so that'the passage of the belt under the die roller is'never interrupted and therefore. the belt in this position 'moves'continuousli at a uniform speed and permits continuous deposit `of cookies Afrom the l v Y 1 speed for a gapbetween groups' andthe other die roller in evenly spaced relation. y I v l VThe frame 29 is timed to complete a reciprocation, that is, a movement. in Veaclfi direction,l during each cycleof operation of the machine, :which cycle alsoincludes one rotation of thedie roller 16 and movement oi' the panj conveyor adistance equal to the distance between centersV of lvthe lugs lla'thereon. VThe movement of the frame 29 yin the forward direction is arrangedto 5 beat thels'amespeed as movementof the receiving Vbelt 28 and consequently when thev shoe 31 is.

moved-,forwardly said shoe simply keeps'pace with the movement of the belt and advances the depositing edge at that-speed so that cookies upon. the belt are not depositedv during vsuch fortinued movement of thechelh'causes a-rapid d e-v previously set forth.

' posit of cooki'esfthereirom and such movement is arranged to deposit the cookies formed by one rotationoftheY die roller which -ls-also a panful.V v`The cookies depositedirom the receiving belt fall upon the-intermediate belt directly below it r and said intermediate belt is also moving but at a chosen speed as its speed `may belvaried Vas recipr`ocaton of the shoe .directlyV behind the last thewpurpose --oi pressing the v cookies whichvwerepreviously deposited on the intermediate beltl fk i However, when the intermediate-belt moves fasterV than the Vreceiving belt,V and "also y-iaster thanthe forward reciprccation of the shoe 371 then ia gap :will be formed between VVthelast reciprocation of the shoe 3l. For'enample and reierringto'zFigs. 3, fi, 5 and `6, Fig'. 3 showsr the frame 29v carrying the fshoei 31, moving rearrcookies deposited on the intermediate belt and 1 the rst cookiesV deposited bythe next rearward wardly and/in' the actofl depositing cookies on `V the intermediate belt.V This rearward'-reciprocation continues until a--panul of-cookies l,has

been deposited, which, in thedrawing, isf 8: in

Then the frame and shoeibeginthe forward movement, such forward;movementk number.

being at the same speed-as the travel of the re'- ceiving belt, so that the movement of the depositing edge of the receivingbelt prevents .cookies from lbeing deposited "but'such forward move-V.V

ment. is slower than the corresponding movement of' the intermediate beltand the more rapid movement oi the intermediate vbelt carriesfthe cookies which have previouslyr been deposited forward and away from-the shoe 3l and' the'depositing edge'of Ythe 'receiving belt, providing av gap and therefore when-the rearward movement with a gapbetween it andthe previously deposited group. Increase of speed tive to the receiving belt will increase the gap beof theintermediate beltrelatween groups `oi cookies and `likewise willV As the parts are arranged in` thisk machine the increased speed-of the intermediate belt will proi vide half of the distance of travel or" its increased half of such distancey will be added to the spacingv increase the spacing of the cookies in the groups.

ing factor of the original length ofthe group of cookies, alteration or the distances provided for gapA and added to the group will result in a variationfof ratios between'group and gap. K n

Y As anY example, inthe receiving belt travels four feet infa'cycle to deposit a group or panful ofjcookies and the intermediate-belt travelsone foot faster inthe cycle, then six inches of such additional travel willbe provided for a gap between groups and six inches will beadded to the spacing inthe group making Vatotal length of group four feet and sixiinch'es and a gap 'oi'six` y inches which is a ratio of oneto nine. However,

if thereceiving lbelt travels at'the same speed, oi

four feet per cycle and the intermediate belt travels twol faster per cycle then the gap willbe one yfoot and with one foot added to the origina-l length of the group making it five feet, lthe ratio is Vone to ve'. *Thesevratios may be varied Vfrom afininimum 'where the two belts run at thesame speed and there is vno change in relation between.

' the cookies andthe maximum'increased speed of y the intermediate belt where the between groups is extremely large relative Vto' the length ofthe group itself. l

v The length of a group of cookies and its accom-vr panying gap is ldefinitely Xed by Ythe speed of wir.

movement of the pan'conveyor which, as previbetween panfuls or groups is made. 4Therefore the positioning of theV cookies on the intermediate belt does not necessarily indicate that the samel position will maintain when the cookies are finally deposited on the pans on the pan conveyor. The position of the cookies on Vthe intermediate belt governs the ratio'of the distances between the slower than the pans thenthe distances inthe group and between groups will be increased when the cookies are finally deposited and the reverseA change of distanceswould occur if the intermediate belt were moving faster, than the pans.

Therefore an extremely close spacing of .the cookies in the groups and inversely correspond- J ing long gap between groups may be provided by running the intermediate belt considerably faster than the movement of the pans and when the cookies are deposited from the receiving belts onto the pans the sameV ratio of distances will maintain but the actual distances will be reduced.

The roller conveyor and depositing conveyor have no eiect upon changing the relative positions of the cookies but in this device merely act as supplementary conveyors to carry the cookies from the intermediate variable speed conveyor through the sugar depositing device and under the presser roller and to deposit them on the pan. The device would actuate with exactly the same result, insofar as arrangement of the cookies was concerned, if the intermediate conveyor 48 were arranged to deposit the cookies directly onto the pans.

It may also be here explained thatthe variableA speed intermediate belt might be dispensed with and the cookies deposited directly from the reciprocating edge of the receiving belt onto the pans. In such an arrangement, and provided that the pans moved faster than the receiving belt,V the cookies would be deposited in groups with gaps between them exactly as above described in depositing on the intermediate belt moving faster than the receiving belt. Such an arrangement, however, would preclude the possibility of varying the relation of distances between groups and gaps because of the necessity of moving the pan conveyor at a uniform speed relative to the ref.

ceiving belt so that one pan will pass through the machine during each cycle of operation to receive a panful of cookies. t

The sugar depositing hopper located directly over the roller conveyorY depositssugar or other substances upon the cookies as they pass under it by rotation of the said roller 81. The surface of` said roller may be smooth or may have corrugations or other depressions as is desirable depending upon the consistency of the material to be fed. The speed of its rotation may be varied by the variable speed drive previously described and i, having the parts 84, 85, 86, etc. The specic roller surplus material to readily fall through the con# veyor and drop upon the waste. belt 70 which moves beneath itand such material may be deposited from the waste belt into a container from other articles'than cookies.

of the invention relates broadly to Ameans for rev over again. ..7

where it may be replaced inthe hopper.. andfused I ,Y

:The presser roller 96V insures'a'-substantially'- v uniformthickness ofxcookiescwhich-pass over'it and it is especiallyv useful to embed largev pari-j ticles'," such as nut meats,-deposited on the surface of thegcookies'so thatetheywill bexsubstantially ilushlwithzthe surfacelpfxthe,cookies. [The roller conveyor andv thev deliveryconveyor are.

arrangedto move atsubstantially4 the same speed:

as thepans and thepan conveyorpalthough the'v relation between the speeds. ofthe twoconveyors andthe vpan is'not important to the Afunctioning of the machine.. i Y, l From the foregoing .description itv'will be "seen that this machine4 provides; means by. vsfhiohl` cookies maybe 4formed vin any; suitable manner and `deposited in uniformly spaced relation and f byf which such cookies may be ,rearranged into groups withgaps between them and deposited upon pans; carried bya continuouslyV and-uniformly moving conveyor whereby each group ofl cookies maybe deposited squarely within the y. boundaries of the pan and the gaps between the groups will be synchronized with the gaps between the pans.

Furthermore the arrangement of the cookies in the groups may be varied at will from one extreme to another in which the cookies may be arranged practically adjacent each other in the groups with wide gaps between groups or they may bel laid with relatively wide spaces ybetween groups and such variation is accomplished by `merely turning the'hand wheel 66 which has the result of driving the intermediate conveyor 48 -faster or slower as previously described. A

. The machine alsoy provides a convenient mechlanism for depositing substances upon the surface of the cookies and for depositing of the surplus substance without cloggingv the partsof. the ma-l chine and in a manner whereby such surplus sub- YItis conceived that the mechanism of thisviny ventionjwhich receives the cookiesand `acts to rearrange their spacing may be utilized withoutv -such parts as the cookieforming'mechanism, the 'i device for depositing .coating Vmaterial and the" presser roller and in such uses it may operate upon arranging articles without respect toY cookies specically. 1 l i We claim: 1. In a device of the class described, a contin-" In fact, the essence.KVV

vstance may be replaced in the said hopper and iso uously moving rst receiving conveyor, recipro4 catmg means to change the position of the delivery v.edge of said rst receiving conveyor, a continuouslyand uniformly moving pan conveyor, means for locating pans upon said panconveyor properly arranged whereby movement through the device of each of said pan locating means will be synchronized with a complete reciprocation of f said delivery edge Achanging means, a uniform speed conveyor for transferring said articles from said first receiving conveyor to pans on said pan conveyor and means for changing the speed of the last named conveyor. 2. In a device of the 'class described, a continuously moving first receiving conveyor, reciprocating means torchange the position of thedelivery edge of saidfirst receiving conveyor, va continnouslyv and Vuniorrnlymoving pan conveyor having movement faster than that of v"the first receiving conveyor, means for locating pans upon rsaid. pan conveyor properly arranged whereby movement through the device of each of said` pan locating means WillY be` synchronized. with a complete reciprocation of said delivery edge' changing means,.a uniform speed conveyor-for transferringsaid articlesfrom said rst'receiving conveyor to pans on said pan conveyor and'means for varying thespeed of the last named conveyor.

V3. In a machine of the class described, a uni'- formly movingrst receiving conveyor to receive articles in spacedrelation, a reciprocating meansv for changing the position of theV delivery edge' of said rst receiving conveyor, a uniformly moving iinal receiving conveyor, a uniormly moving Y transfer conveyor to receive articles Yfrom the delivery edge of the rst receiving conveyor and ETA to deposit"l them" upon' th'efinal receiving conveyor',x said transfer receiving conveyor having a fixed position deliveryedge', and means for varyingthe speedof movement of the. transfer conveyor. u f

4.`In afdevic'e of the class describedVa con-k tinuouslymoving irst receiving Yconveyor,,reciprocating. means to. change the position of the delivery edge of said rst receiving conveyor, a continuously. and-uniformly' moving pan conveyor means and constant speed means for transferringA said articles from said Yfirst receiving conveyor to pans onsaidrpan conveyor, said constant speed means having astationary delivery edge.

FRANK .cnfiRLns WERNER. 7.

' HAROLD O. VAN ANTWERP.

ioo 

